Photothermal conversion of gold nanoparticles for uniform pulsed laser warming of vitrified biomaterials
Yilin Liu, Joseph Kangas, Yiru Wang, Kanav Khosla, Jacqueline L. Pasek-Allen, Aaron E. Saunders, Steven J. Oldenburg, John C. Bischof
Abstract
) and heating behavior of GNP-loaded hemispherical droplets, thereby demonstrating that the GNS case with higher scattering-to-absorption ratio achieved more uniform heating than the GNR case. Interestingly, further tuning of the scattering and absorption coefficients of the hemispherical GNP-loaded droplet within the model suggests the ability to obtain an optimal scattering-to-absorption ratio for uniform heating. These results show the importance of considering the reabsorption of scattered light to accurately characterize the photothermal conversion efficiency of GNP solutions during laser irradiation. We also show that the relative scattering and absorption properties of the nanoparticles can be designed to promote both rapid and uniform laser rewarming of vitrified droplets for application in cryopreservation.